igf1r cDNA ORF clone, Callorhinchus milii(elephant shark)

Gene
Clones
gRNAs

Summary

Gene Symbol	igf1r
Entrez Gene ID	103188389
Full Name	insulin like growth factor 1 receptor
Gene Type	protein-coding
Organism	Callorhinchus milii(elephant shark)

mRNA and Protein(s)

mRNA	Protein	Name
XM_007908370.1	XP_007906561.1	insulin-like growth factor 1 receptor

Pathways from BioSystems
Gene Ontology

The following igf1r gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the igf1r cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OCa370965	XM_007908370.1 Latest version!	Callorhinchus milii insulin-like growth factor 1 receptor (igf1r), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

igf1r ( XM_007908370.1 ) cDNA ORF clone, Callorhinchus milii(elephant shark) -> XP_007906561.1 Callorhinchus milii insulin-like growth factor 1 receptor (igf1r), mRNA.

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CloneID	OCa370965
Clone ID Related Accession (Same CDS sequence)	XM_007908370.1
Accession Version	XM_007908370.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4068bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2014-05-08
Organism	Callorhinchus milii(elephant shark)
Product	insulin-like growth factor 1 receptor
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006890058.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Callorhinchus milii Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAGACCA GATCAACAAA GAGGGGCTCG GTGACCTTGT GCTGGGGTCT GGTGGCTCTC 
TGCACCTTAC TCACTCTGGG ACAAACTAAC GCTGAAATAT GTCACGGTCT GGATATCAGA 
AATAATGTTG GGGACCTGCA GCAGCTGGAG AACTGCACCA TAATCGAAGG TTACCTTCAA 
ATTCTCCTCA TCTTTAATTC TAAAGTGGAA GATTTCCGTG GCCTTCGATT CCCAAAACTG 
ACCGTGATCA CAGATTACCT GCTGCTTTAC CGAGTGTCTG GGCTGGAGAC ACTGCGAGAC 
CTCTTCCCAA ACCTTGCTGT CATCCGGGGC ATACAGCTGT TCTTCAACTA CGCTCTGGTC 
ATCTTTGAAA TGACTCACCT CAAAGAGATT GGGCTCTACA GCCTCCAGAA TGTAACGCGG 
GGCGCGGTTC GGATTGAGAA AAATCCAGAT TTGTGCTACT TGTCCACTAT AGACTGGTCC 
TTCATCCTGG ATTCTGTGGA GAATAACTAC CTTGATCGGA ATAAACAGCC GAGTGAATGC 
GGAGATGTCT GCCCGGGAGC TATGGAAGAT AGTCCTCTTT GCACAAAGAC AAGTGTGAAC 
AACCAGTATA ACTACCGTTG CTGGACTGCC AACCACTGCC AAAAAGTGTG CCCAAAGGAG 
TGTGGCAAGC GTGCTTGCAC GGACCAAGGC GAATGCTGTC ATGAAGAGTG CCTGGGGAGT 
TGTACAGCCA CCCATGACAA CAGGGCCTGC GTGGCCTGCC GCAACCTCTA CCACGAAGGC 
CAGTGCCTGG CCACCTGCCC TCCCGGGACC TACAAGTTTG AAGGCTGGCG CTGTGTGACC 
AAGGAATTTT GTGCAAAAAT CCCTGGAGAG AATCCCAAGG ATCAGTTCTC AATCCACCAA 
GGAGAGTGTC TGCCCATCTG TCCGTCAGGA TTCACTCGCA ACGGCAGCAG TATGATCTGC 
ACACCTTGCG ATGGTCTGTG TCCCCAGGTG TGCTCAGTGG ATACAAAGAC CATTGATTCT 
GTCACTGCTG CCCAGGACCT GAAGGGATGT ACTGTCATTG ATGGAAATTT GATTATCACA 
ATCCGGAGAG GAAATAATAT AGCTGCTGAG CTGGAGGCCA ATCTCGGGCT GATAGAAACC 
ATTACCGGAT ATGTAAAAAT CCGACATTCA TACGCCCTCG TGTCACTCTC TTTCTTCAAG 
AGTTTGCGCT ATATCAATGG GGAAGAACAA ACTGAAGGGA ACTACTCTTT CTTTGTGCTG 
CACAATCAGA ACTTGCAGCA GCTGTGGGAC TGGAGCCGTC ATAACCTGAC GATCAAACAG 
GGCAAGATAT ACTTCGCTTT CAATCAAAAG CTGTGCCGGT CGGAGATCTC CCGTATGGAG 
GAGGTCACTG GTGTGAAGGG GAGACAGGGC ACGAATGACA ACCAGGATAG GACTAATGGA 
GACCGGGCTT CATGTGAAAG CCACATTCTT AAGTTCACGG ATAATATCAC AGCCAAGAAC 
AGAATATTAC TGAAATGGGA ACATTATCGT CCTCCAGATT ACAGAGACCT CATCAGCTTC 
ATAGTGTACT ACAAGGAAGC TCCCTTTCAA AATTTGACAG AGTATGATGG ACAGGATGCC 
TGTGGCTCCA ATAGCTGGAG CATGGTGGAT GTAGATCTTC CCAAGAGCAA AACCCAGGAG 
CCAGGAGTCT ACTTGCAAAA TCTGAAGCCT TGGACTCAGT ATGCCATCTT TGTCAAAGCC 
ATCACTCTCA CCACCTCCGA AGATGGACGT AACCACGGGG CAAAGAGTGA AATCATCTAT 
GTGAAAACAA ACGCTTCTGC GCCCTCTGTC CCTCTGGATG TGCTGTCTGT GTCCAACTCC 
TCAACCCAGC TGGTGGTGAA GTGGAAACCC CCTGCCTTTT CCAATGGGAA CATCACTTAT 
TACTTGGTGC GTTGGCAGCA GCAACCAGAG GACGTAGAGC TTTACAAGCA CAACTACTGC 
CACAAAGGTC TGAAGCTGCC AAATAGACAT CCAGCTGTAG GGACGATCGA CCTGGATGAT 
GAATCCCATT CCAAAGAGTC GGAGAAAGTT GGCCAAGGAC TATGCTGCAT GTGCCCAAAA 
ACCCAGGCCG AACTAGACGC TGAGGCGGAG GAAGTCATGT TCCAGAAGAT GTTTGAGAAT 
TTTCTGCACA ACTCGATCTT CATGCCAAGG CCGTTCCGTA AACGCAGGGA CACCTTTGGA 
GTGGCAAATG CCACGTTACC GGTTAATAAC ACGGCTGAGC ATACCGCTAA CCATTCAGAC 
TCTGAGAGGA AGCAAGACTA CCCTTTCTAT GAGACCAAAG TCTGGTTAAA GGACAGGACT 
GTGATTTCAA ACCTACGTCA TTTCACCATG TATCGTGTAG ACATTCACGC CTGCAACCAC 
GAGGCTCTGA AACTGGGCTG CAGTGTTTCC ACGTTTGTGT TTGCGAGGAC CATGCCAGCA 
GATAAATCTG ACAATATACC TGGACCAGTG ATCTGGGAGG CTGGAGATGA TGAAAATAGC 
GTTTACATTA AGTGGCCAGA ACCAGTCGAT CCAAATGGAC TCATCCTGAT GTACGAAGTG 
AAGTATAACC GCGGGGACAA CGAGGTCCAA CAAAAATGTG TTTCCAGACC ACAATACAAG 
ATCCACAATG GTGGCTGTAA ACTGGACCGT CTCAGCCCCG GCAATTACAC CGCGGAGGTC 
AGAGCCACCT CCCTCTCGGG AAATGGATCT TGGACTGAGC CAGTGATGTT CTACATCAAG 
GCCAAGCCAC CTGTACCTGA TAATCTCTTA CAGTTGATAA TAGCATTGCC CATCGCAGTG 
CTGCTGGTGA TTGCAGGCCT AATTATCACA TTATATTTCT TCAACAAAAA GAGAAATAAT 
GACAGGCTTC CAAATGGAGT GCTGTATGCG TCTGTGAATC CGGAATATTT CAGCGCTGGA 
GATATGTACG TGCCAGATGA GTGGGAGGTT CCCCGTGAGA AAATCACCAT GAACCGAGAG 
TTGGGCCAAG GGTCCTTTGG GATGGTCTAT GAGGGCCTGG CCAAAGGTGT GGTGAAGGAT 
GACCCGGAGA CAAGAGTTGC GATTAAGACA GTGAATGAGT CGGCCAGTAT GCGCGAGCGC 
ATAGAGTTCC TCAATGAAGC TTCGGTGATG AAGGAATTTA ATTGCCATCA TGTGGTTCGC 
TTGCTCGGTG TGGTATCCCA GGGCCAGCCG ACGCTGGTTA TCATGGAACT GATGACTCGT 
GGAGACCTAA AGAGCTACCT ACGCTCGCTG CGCCCGGACG CAGAGAATAA CCCGGGGCAG 
CCGCCACCAA CCCTGAAGAA AATGATTCAG ATGGCAGGCG AGATCGCTGA TGGAATGTCT 
TACCTCAACG CTAACAAGTT TGTTCATAGA GATTTAGCGG CTCGAAACTG TATGGTGACA 
GAGGACTACA CTGTAAAGAT TGGAGATTTT GGGATGACGA GAGATATCTA TGAAACTGAT 
TATTACCGGA AAGGGGGTAA GGGACTACTG CCTGTTCGAT GGATGTCACC AGAGTCGCTG 
AAGGATGGGG TCTTCACAAC ACACTCTGAT GTCTGGTCAT TCGGAGTTGT GCTGTGGGAG 
ATTGCCACTT TGGTGGAGCA GCCGTACCAG GGCATGTCAA ACGAGCAGGT CCTGCGCTTT 
GTGATGGAGG GGGGGTTACT GGAGAGACCA GACAATTGTC CTGACAGCCT GTTTGAGCTC 
ATGAGACTGT GCTGGCAATA CAATCCCAAG ATGCGTCCTT CCTTCACGGA AATCATTGAG 
AGCATTAAAG ACGACCTGGA ACCCACCTTC AAAGAGGTCT CATTCTTCTA CAGCGAAGAT 
TACAAACCCC ATGACACCGA GGAGTTTGAA GCCGAAGACA TGGAAAACAT TCCTCTGGAC 
CCTTCATCCG CAATCCAAAA CTCCGACAAG CACTCAGGAC ACAAATTGGA AAACGGACCA 
GGCGTTGTCC TTCGTTCCAG CTTTGAAGAG AGGCAGCCGT ACGCTCACAT GAACGGGGGG 
AGGAAGAATG AGAGAGCGTT GCCTTTGCCC CAGTCAACGG TCTGTTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_007906561.1
CDS	105..4172
Translation	MKTRSTKRGSVTLCWGLVALCTLLTLGQTNAEICHGLDIRNNVGDLQQLENCTIIEGYLQILLIFNSKVEDFRGLRFPKLTVITDYLLLYRVSGLETLRDLFPNLAVIRGIQLFFNYALVIFEMTHLKEIGLYSLQNVTRGAVRIEKNPDLCYLSTIDWSFILDSVENNYLDRNKQPSECGDVCPGAMEDSPLCTKTSVNNQYNYRCWTANHCQKVCPKECGKRACTDQGECCHEECLGSCTATHDNRACVACRNLYHEGQCLATCPPGTYKFEGWRCVTKEFCAKIPGENPKDQFSIHQGECLPICPSGFTRNGSSMICTPCDGLCPQVCSVDTKTIDSVTAAQDLKGCTVIDGNLIITIRRGNNIAAELEANLGLIETITGYVKIRHSYALVSLSFFKSLRYINGEEQTEGNYSFFVLHNQNLQQLWDWSRHNLTIKQGKIYFAFNQKLCRSEISRMEEVTGVKGRQGTNDNQDRTNGDRASCESHILKFTDNITAKNRILLKWEHYRPPDYRDLISFIVYYKEAPFQNLTEYDGQDACGSNSWSMVDVDLPKSKTQEPGVYLQNLKPWTQYAIFVKAITLTTSEDGRNHGAKSEIIYVKTNASAPSVPLDVLSVSNSSTQLVVKWKPPAFSNGNITYYLVRWQQQPEDVELYKHNYCHKGLKLPNRHPAVGTIDLDDESHSKESEKVGQGLCCMCPKTQAELDAEAEEVMFQKMFENFLHNSIFMPRPFRKRRDTFGVANATLPVNNTAEHTANHSDSERKQDYPFYETKVWLKDRTVISNLRHFTMYRVDIHACNHEALKLGCSVSTFVFARTMPADKSDNIPGPVIWEAGDDENSVYIKWPEPVDPNGLILMYEVKYNRGDNEVQQKCVSRPQYKIHNGGCKLDRLSPGNYTAEVRATSLSGNGSWTEPVMFYIKAKPPVPDNLLQLIIALPIAVLLVIAGLIITLYFFNKKRNNDRLPNGVLYASVNPEYFSAGDMYVPDEWEVPREKITMNRELGQGSFGMVYEGLAKGVVKDDPETRVAIKTVNESASMRERIEFLNEASVMKEFNCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSYLRSLRPDAENNPGQPPPTLKKMIQMAGEIADGMSYLNANKFVHRDLAARNCMVTEDYTVKIGDFGMTRDIYETDYYRKGGKGLLPVRWMSPESLKDGVFTTHSDVWSFGVVLWEIATLVEQPYQGMSNEQVLRFVMEGGLLERPDNCPDSLFELMRLCWQYNPKMRPSFTEIIESIKDDLEPTFKEVSFFYSEDYKPHDTEEFEAEDMENIPLDPSSAIQNSDKHSGHKLENGPGVVLRSSFEERQPYAHMNGGRKNERALPLPQSTVC

Target ORF information:

RefSeq Version	XM_007908370.1
Organism	Callorhinchus milii(elephant shark)
Definition	Callorhinchus milii insulin-like growth factor 1 receptor (igf1r), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_007908370.1

ORF Insert Sequence:

ATGAAGACCA GATCAACAAA GAGGGGCTCG GTGACCTTGT GCTGGGGTCT GGTGGCTCTC 
TGCACCTTAC TCACTCTGGG ACAAACTAAC GCTGAAATAT GTCACGGTCT GGATATCAGA 
AATAATGTTG GGGACCTGCA GCAGCTGGAG AACTGCACCA TAATCGAAGG TTACCTTCAA 
ATTCTCCTCA TCTTTAATTC TAAAGTGGAA GATTTCCGTG GCCTTCGATT CCCAAAACTG 
ACCGTGATCA CAGATTACCT GCTGCTTTAC CGAGTGTCTG GGCTGGAGAC ACTGCGAGAC 
CTCTTCCCAA ACCTTGCTGT CATCCGGGGC ATACAGCTGT TCTTCAACTA CGCTCTGGTC 
ATCTTTGAAA TGACTCACCT CAAAGAGATT GGGCTCTACA GCCTCCAGAA TGTAACGCGG 
GGCGCGGTTC GGATTGAGAA AAATCCAGAT TTGTGCTACT TGTCCACTAT AGACTGGTCC 
TTCATCCTGG ATTCTGTGGA GAATAACTAC CTTGATCGGA ATAAACAGCC GAGTGAATGC 
GGAGATGTCT GCCCGGGAGC TATGGAAGAT AGTCCTCTTT GCACAAAGAC AAGTGTGAAC 
AACCAGTATA ACTACCGTTG CTGGACTGCC AACCACTGCC AAAAAGTGTG CCCAAAGGAG 
TGTGGCAAGC GTGCTTGCAC GGACCAAGGC GAATGCTGTC ATGAAGAGTG CCTGGGGAGT 
TGTACAGCCA CCCATGACAA CAGGGCCTGC GTGGCCTGCC GCAACCTCTA CCACGAAGGC 
CAGTGCCTGG CCACCTGCCC TCCCGGGACC TACAAGTTTG AAGGCTGGCG CTGTGTGACC 
AAGGAATTTT GTGCAAAAAT CCCTGGAGAG AATCCCAAGG ATCAGTTCTC AATCCACCAA 
GGAGAGTGTC TGCCCATCTG TCCGTCAGGA TTCACTCGCA ACGGCAGCAG TATGATCTGC 
ACACCTTGCG ATGGTCTGTG TCCCCAGGTG TGCTCAGTGG ATACAAAGAC CATTGATTCT 
GTCACTGCTG CCCAGGACCT GAAGGGATGT ACTGTCATTG ATGGAAATTT GATTATCACA 
ATCCGGAGAG GAAATAATAT AGCTGCTGAG CTGGAGGCCA ATCTCGGGCT GATAGAAACC 
ATTACCGGAT ATGTAAAAAT CCGACATTCA TACGCCCTCG TGTCACTCTC TTTCTTCAAG 
AGTTTGCGCT ATATCAATGG GGAAGAACAA ACTGAAGGGA ACTACTCTTT CTTTGTGCTG 
CACAATCAGA ACTTGCAGCA GCTGTGGGAC TGGAGCCGTC ATAACCTGAC GATCAAACAG 
GGCAAGATAT ACTTCGCTTT CAATCAAAAG CTGTGCCGGT CGGAGATCTC CCGTATGGAG 
GAGGTCACTG GTGTGAAGGG GAGACAGGGC ACGAATGACA ACCAGGATAG GACTAATGGA 
GACCGGGCTT CATGTGAAAG CCACATTCTT AAGTTCACGG ATAATATCAC AGCCAAGAAC 
AGAATATTAC TGAAATGGGA ACATTATCGT CCTCCAGATT ACAGAGACCT CATCAGCTTC 
ATAGTGTACT ACAAGGAAGC TCCCTTTCAA AATTTGACAG AGTATGATGG ACAGGATGCC 
TGTGGCTCCA ATAGCTGGAG CATGGTGGAT GTAGATCTTC CCAAGAGCAA AACCCAGGAG 
CCAGGAGTCT ACTTGCAAAA TCTGAAGCCT TGGACTCAGT ATGCCATCTT TGTCAAAGCC 
ATCACTCTCA CCACCTCCGA AGATGGACGT AACCACGGGG CAAAGAGTGA AATCATCTAT 
GTGAAAACAA ACGCTTCTGC GCCCTCTGTC CCTCTGGATG TGCTGTCTGT GTCCAACTCC 
TCAACCCAGC TGGTGGTGAA GTGGAAACCC CCTGCCTTTT CCAATGGGAA CATCACTTAT 
TACTTGGTGC GTTGGCAGCA GCAACCAGAG GACGTAGAGC TTTACAAGCA CAACTACTGC 
CACAAAGGTC TGAAGCTGCC AAATAGACAT CCAGCTGTAG GGACGATCGA CCTGGATGAT 
GAATCCCATT CCAAAGAGTC GGAGAAAGTT GGCCAAGGAC TATGCTGCAT GTGCCCAAAA 
ACCCAGGCCG AACTAGACGC TGAGGCGGAG GAAGTCATGT TCCAGAAGAT GTTTGAGAAT 
TTTCTGCACA ACTCGATCTT CATGCCAAGG CCGTTCCGTA AACGCAGGGA CACCTTTGGA 
GTGGCAAATG CCACGTTACC GGTTAATAAC ACGGCTGAGC ATACCGCTAA CCATTCAGAC 
TCTGAGAGGA AGCAAGACTA CCCTTTCTAT GAGACCAAAG TCTGGTTAAA GGACAGGACT 
GTGATTTCAA ACCTACGTCA TTTCACCATG TATCGTGTAG ACATTCACGC CTGCAACCAC 
GAGGCTCTGA AACTGGGCTG CAGTGTTTCC ACGTTTGTGT TTGCGAGGAC CATGCCAGCA 
GATAAATCTG ACAATATACC TGGACCAGTG ATCTGGGAGG CTGGAGATGA TGAAAATAGC 
GTTTACATTA AGTGGCCAGA ACCAGTCGAT CCAAATGGAC TCATCCTGAT GTACGAAGTG 
AAGTATAACC GCGGGGACAA CGAGGTCCAA CAAAAATGTG TTTCCAGACC ACAATACAAG 
ATCCACAATG GTGGCTGTAA ACTGGACCGT CTCAGCCCCG GCAATTACAC CGCGGAGGTC 
AGAGCCACCT CCCTCTCGGG AAATGGATCT TGGACTGAGC CAGTGATGTT CTACATCAAG 
GCCAAGCCAC CTGTACCTGA TAATCTCTTA CAGTTGATAA TAGCATTGCC CATCGCAGTG 
CTGCTGGTGA TTGCAGGCCT AATTATCACA TTATATTTCT TCAACAAAAA GAGAAATAAT 
GACAGGCTTC CAAATGGAGT GCTGTATGCG TCTGTGAATC CGGAATATTT CAGCGCTGGA 
GATATGTACG TGCCAGATGA GTGGGAGGTT CCCCGTGAGA AAATCACCAT GAACCGAGAG 
TTGGGCCAAG GGTCCTTTGG GATGGTCTAT GAGGGCCTGG CCAAAGGTGT GGTGAAGGAT 
GACCCGGAGA CAAGAGTTGC GATTAAGACA GTGAATGAGT CGGCCAGTAT GCGCGAGCGC 
ATAGAGTTCC TCAATGAAGC TTCGGTGATG AAGGAATTTA ATTGCCATCA TGTGGTTCGC 
TTGCTCGGTG TGGTATCCCA GGGCCAGCCG ACGCTGGTTA TCATGGAACT GATGACTCGT 
GGAGACCTAA AGAGCTACCT ACGCTCGCTG CGCCCGGACG CAGAGAATAA CCCGGGGCAG 
CCGCCACCAA CCCTGAAGAA AATGATTCAG ATGGCAGGCG AGATCGCTGA TGGAATGTCT 
TACCTCAACG CTAACAAGTT TGTTCATAGA GATTTAGCGG CTCGAAACTG TATGGTGACA 
GAGGACTACA CTGTAAAGAT TGGAGATTTT GGGATGACGA GAGATATCTA TGAAACTGAT 
TATTACCGGA AAGGGGGTAA GGGACTACTG CCTGTTCGAT GGATGTCACC AGAGTCGCTG 
AAGGATGGGG TCTTCACAAC ACACTCTGAT GTCTGGTCAT TCGGAGTTGT GCTGTGGGAG 
ATTGCCACTT TGGTGGAGCA GCCGTACCAG GGCATGTCAA ACGAGCAGGT CCTGCGCTTT 
GTGATGGAGG GGGGGTTACT GGAGAGACCA GACAATTGTC CTGACAGCCT GTTTGAGCTC 
ATGAGACTGT GCTGGCAATA CAATCCCAAG ATGCGTCCTT CCTTCACGGA AATCATTGAG 
AGCATTAAAG ACGACCTGGA ACCCACCTTC AAAGAGGTCT CATTCTTCTA CAGCGAAGAT 
TACAAACCCC ATGACACCGA GGAGTTTGAA GCCGAAGACA TGGAAAACAT TCCTCTGGAC 
CCTTCATCCG CAATCCAAAA CTCCGACAAG CACTCAGGAC ACAAATTGGA AAACGGACCA 
GGCGTTGTCC TTCGTTCCAG CTTTGAAGAG AGGCAGCCGT ACGCTCACAT GAACGGGGGG 
AGGAAGAATG AGAGAGCGTT GCCTTTGCCC CAGTCAACGG TCTGTTGA